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Media Redundancy Protocol

May 04, 2024

Media Redundancy Protocol (MRP) is a data network protocol standardized by the International Electrotechnical Commission as IEC 62439-2. It allows rings of Ethernet switches to overcome any single failure with recovery time much faster than achievable with Spanning Tree Protocol.[1] It is suitable to most industrial Ethernet applications.

Figure 1: MRP ring in Ring-Closed status
Figure 2: MRP ring in Ring-Open status

Properties edit

MRP operates at the data link layer (OSI Layer 2) of Ethernet switches and is a direct evolution of the HiPER-Ring protocol developed by Hirschmann in 1998.[2][3] Hirschmann is now owned by Belden.[4] MRP is supported by several commercial industrial Ethernet switches.[5][6]

In an MRP ring, the ring manager is named Media Redundancy Manager (MRM), while ring clients are named Media Redundancy Clients (MRCs).

MRM and MRC ring ports support three statuses: disabled, blocked, and forwarding. Disabled ring ports drop all the received frames. Blocked ring ports drop all the received frames except the MRP control frames. Forwarding ring ports forward all the received frames.

During normal operation, the network works in the Ring-Closed status (Figure 1). In this status, one of the MRM ring ports is blocked, while the other is forwarding. Conversely, both ring ports of all MRCs are forwarding. Loops are avoided because the physical ring topology is reduced to a logical line topology.

In case of failure, the network works in the Ring-Open status (Figure 2). For instance, in case of failure of a link connecting two MRCs, the MRM sets both of its ring ports to the forwarding state; the MRCs adjacent to the failure each have a disabled port (because of the link loss) and a forwarding ring port; the other MRCs have both ring ports forwarding. Also, in the Ring-Open status, the network logical topology is a line.

Frame structure edit

MRP information is sent in the form of an Ethernet frame, with the EtherType field set to 0x88E3. The frames are built by Type–length–value (TLV) structures, allowing organizationally specific information.

Standards edit

The International Electrotechnical Commission standard for MRP was published in 2010 as IEC 62439-2[7] and amended in 2012.[citation needed]

The standard IEC 62439 published in 2012 also defined the following protocols:

With the settings specified in IEC 62439-2, MRP guarantees a worst-case recovery time of 500 ms, 200 ms, or 30 ms in rings composed of up to 50 switches, and a worst-case recovery time of 10 ms in rings composed of up to 14 switches.

See also edit

References edit

  1. ^ A. Giorgetti; et al. (February 3, 2013). "Performance Analysis of Media Redundancy Protocol (MRP)". IEEE Transactions on Industrial Informatics. 9. IEEE Computer Society: 218–227. doi:10.1109/TII.2012.2186584. S2CID 5696119.
  2. ^ (PDF). White paper. December 8, 2003. Archived from the original (PDF) on May 16, 2008. Retrieved August 17, 2013.
  3. ^ Marc Lee (November 5, 2010). "Industrial Redundant Network" (PDF). Singapore BICSI conference. Retrieved August 17, 2013.
  4. ^ . Web site. Hirschmann a Belden Brand. Archived from the original on May 12, 2013. Retrieved August 17, 2013.
  5. ^ "Fast Ethernet DIN Rail switch 8-9 ports". Product page. Belden. Retrieved August 17, 2013.
  6. ^ (PDF). Omron. October 12, 2009. Archived from the original (PDF) on February 16, 2011. Retrieved August 17, 2013.
  7. ^ Industrial communication networks - High availability automation networks - Part 2: Media Redundancy Protocol (MRP). February 26, 2010. ISBN 978-2-88912-000-0. {{cite book}}: |work= ignored (help)

May 04, 2024
media, redundancy, protocol, data, network, protocol, standardized, international, electrotechnical, commission, 62439, allows, rings, ethernet, switches, overcome, single, failure, with, recovery, time, much, faster, than, achievable, with, spanning, tree, pr. Media Redundancy Protocol MRP is a data network protocol standardized by the International Electrotechnical Commission as IEC 62439 2 It allows rings of Ethernet switches to overcome any single failure with recovery time much faster than achievable with Spanning Tree Protocol 1 It is suitable to most industrial Ethernet applications Figure 1 MRP ring in Ring Closed status Figure 2 MRP ring in Ring Open status Contents 1 Properties 2 Frame structure 3 Standards 4 See also 5 ReferencesProperties editMRP operates at the data link layer OSI Layer 2 of Ethernet switches and is a direct evolution of the HiPER Ring protocol developed by Hirschmann in 1998 2 3 Hirschmann is now owned by Belden 4 MRP is supported by several commercial industrial Ethernet switches 5 6 In an MRP ring the ring manager is named Media Redundancy Manager MRM while ring clients are named Media Redundancy Clients MRCs MRM and MRC ring ports support three statuses disabled blocked and forwarding Disabled ring ports drop all the received frames Blocked ring ports drop all the received frames except the MRP control frames Forwarding ring ports forward all the received frames During normal operation the network works in the Ring Closed status Figure 1 In this status one of the MRM ring ports is blocked while the other is forwarding Conversely both ring ports of all MRCs are forwarding Loops are avoided because the physical ring topology is reduced to a logical line topology In case of failure the network works in the Ring Open status Figure 2 For instance in case of failure of a link connecting two MRCs the MRM sets both of its ring ports to the forwarding state the MRCs adjacent to the failure each have a disabled port because of the link loss and a forwarding ring port the other MRCs have both ring ports forwarding Also in the Ring Open status the network logical topology is a line Frame structure editMRP information is sent in the form of an Ethernet frame with the EtherType field set to 0x88E3 The frames are built by Type length value TLV structures allowing organizationally specific information Standards editThe International Electrotechnical Commission standard for MRP was published in 2010 as IEC 62439 2 7 and amended in 2012 citation needed The standard IEC 62439 published in 2012 also defined the following protocols Parallel Redundancy Protocol PRP Cross network Redundancy Protocol CRP Beacon Redundancy Protocol BRP High availability Seamless Redundancy HSR With the settings specified in IEC 62439 2 MRP guarantees a worst case recovery time of 500 ms 200 ms or 30 ms in rings composed of up to 50 switches and a worst case recovery time of 10 ms in rings composed of up to 14 switches See also editFieldbusReferences edit A Giorgetti et al February 3 2013 Performance Analysis of Media Redundancy Protocol MRP IEEE Transactions on Industrial Informatics 9 IEEE Computer Society 218 227 doi 10 1109 TII 2012 2186584 S2CID 5696119 Hirschmann Networking Interoperability to Industrial Process and EtherNet IP Environments PDF White paper December 8 2003 Archived from the original PDF on May 16 2008 Retrieved August 17 2013 Marc Lee November 5 2010 Industrial Redundant Network PDF Singapore BICSI conference Retrieved August 17 2013 HiOS Hirschmann Operating System Web site Hirschmann a Belden Brand Archived from the original on May 12 2013 Retrieved August 17 2013 Fast Ethernet DIN Rail switch 8 9 ports Product page Belden Retrieved August 17 2013 PROFINET Open Industrial Ethernet standard for automation PDF Omron October 12 2009 Archived from the original PDF on February 16 2011 Retrieved August 17 2013 Industrial communication networks High availability automation networks Part 2 Media Redundancy Protocol MRP February 26 2010 ISBN 978 2 88912 000 0 a href Template Cite book html title Template Cite book cite book a work ignored help Retrieved from https en wikipedia org w index php title Media Redundancy Protocol amp oldid 1185099182, wikipedia, wiki, book, books, library,

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